Decaying Problem and the Age of a Sample.

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In summary, the conversation is about finding the age of a rock using information about the amount of carbon and carbon-14 in a living specimen and an archaeological sample. The questions asked are about the number of carbon atoms and carbon-14 atoms, the decay constant for carbon-14, the initial number of decays per week, the corrected number of decays per week, and the time in years since the specimen died. It is mentioned that this is for a third level university course and the person asking for help is expected to have tried and have some ideas before seeking help.
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Homework Statement




a living speciman in equilibrium with the atmosphere contains one atom of 14C half life of 5730 for every 7.7x10^11 stable carbon atoms. An archaelogical sample of wood cellulose C12H22O11 contains 21.0mg of carbon. when the sample is placed inside a sheilded beta counter with 88 percent efficiency.837 counts are accumulated in one week. We wish to find the age of the rock.
a) what is the number of carbon atoms?
b)find the number of carbon 14 atoms
c)find the decay constant for carbon-14 in inverse seconds
d)find the initial number of decays per week just after the speciman has died
e)find the corrected number of decays per week from the current sample
f)find the time in years since the speciman died




For a third level university course.
 
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What have you tried, what are your ideas? We don't solve your homework (cause we already did such things in our studies), we give you hints and point you in the right direction.
 

Related to Decaying Problem and the Age of a Sample.

1. What is the decaying problem?

The decaying problem refers to the process in which radioactive materials lose energy and decay into more stable forms over time.

2. How is the age of a sample determined?

The age of a sample can be determined by measuring the amount of radioactive material present and using the known rate of decay to calculate how long it has been decaying.

3. What are some common methods used to determine the age of a sample?

Some common methods include carbon dating, uranium-lead dating, and potassium-argon dating.

4. Can the age of a sample be accurately determined?

The accuracy of determining the age of a sample depends on the method used and the condition of the sample. In some cases, the age can be determined with high precision, while in others there may be a larger margin of error.

5. Why is it important to accurately determine the age of a sample?

Determining the age of a sample can provide valuable information about the history of the sample and the environment in which it was formed. It can also help in understanding geological processes and predicting future changes.

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